[Federal Register Volume 79, Number 160 (Tuesday, August 19, 2014)]
[Rules and Regulations]
[Pages 49001-49013]
From the Federal Register Online via the Government Publishing Office [www.gpo.gov]
[FR Doc No: 2014-19265]
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ENVIRONMENTAL PROTECTION AGENCY
40 CFR Parts 122 and 136
[EPA-HQ-OW-2009-1019; FRL-9915- 18-OW]
RIN 2040-AC84
National Pollutant Discharge Elimination System (NPDES): Use of
Sufficiently Sensitive Test Methods for Permit Applications and
Reporting
AGENCY: Environmental Protection Agency.
ACTION: Final rule.
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SUMMARY: The Environmental Protection Agency (EPA) is finalizing minor
amendments to its Clean Water Act (CWA) regulations to codify that
under the National Pollutant Discharge Elimination System (NPDES)
program, permit applicants must use ``sufficiently sensitive''
analytical test methods when completing an NPDES permit application and
the Director must prescribe that only ``sufficiently sensitive''
methods be used for analyses of pollutants or pollutant parameters
under an NPDES permit.
The final rule is based on requirements in the CWA and clarifies
existing EPA regulations. It also codifies existing EPA guidance on the
use of ``sufficiently sensitive'' analytical methods with respect to
measurement of mercury and extends the approach outlined in that
guidance to the NPDES program more generally. Specifically, EPA is
modifying existing NPDES application, compliance monitoring, and
analytical methods regulations. The amendments in this rulemaking
affect only chemical-specific methods; they do not apply to the Whole
Effluent Toxicity (WET) methods or their use.
DATES: These final regulations are effective September 18, 2014. For
judicial review purposes, this final rule is promulgated as of 1:00
p.m. Eastern Time, on September 2, 2014, as provided in 40 CFR 23.2.
ADDRESSES: The record for this rulemaking is available for inspection
and copying at the Water Docket, located at the EPA Docket Center (EPA/
DC), EPA West 1301 Constitution Ave. NW., Washington, DC 20004. The
record is also available via EPA Dockets at http://www.regulations.gov
under docket number EPA-HQ-OW-2009-1019. The rule and key supporting
documents are also available electronically on the Internet at http://cfpub.epa.gov/npdes/ssmethods.cfm.
Docket: All documents in the docket are listed in the
www.regulations.gov index. Some information, however, is not publicly
available, e.g., confidential business information (``CBI'') or other
information whose disclosure is restricted by statute. Certain other
material, such as copyrighted material, is publicly available only in
hard copy. Publicly available docket materials are available
electronically in www.regulations.gov or in hard copy at the Water
Docket, EPA Docket Center, EPA West, Room 3334, 1301 Constitution
Avenue NW., Washington, DC. The Public Reading Room is open from 8:30
a.m. to 4:30 p.m., Monday through Friday, excluding legal holidays. The
telephone number for the Public Reading Room is (202) 566-1744, and the
telephone number for the Water Docket is (202) 566-2426.
FOR FURTHER INFORMATION CONTACT: For additional information, contact
Kathryn Kelley, Water Permits Division, Office of Wastewater Management
(4203M), Environmental Protection Agency, 1200 Pennsylvania Ave. NW.,
Washington, DC 20460; telephone number: (202) 564-7004, email address:
[email protected].
SUPPLEMENTARY INFORMATION:
I. General Information
A. Potentially Affected Parties
B. Legal Authority
II. Background
III. Summary of Public Comments and EPA's Response
IV. The Final Rule
V. Impacts
VI. Compliance Dates
VII. Statutory and Executive Order Reviews
A. Executive Order 12866: Regulatory Planning and Review
B. Paperwork Reduction Act
C. Regulatory Flexibility Act
D. Unfunded Mandates Reform Act
E. Executive Order 13132: Federalism
F. Executive Order 13175: Consultation and Coordination With
Indian Tribal Governments
G. Executive Order 13045: Protection of Children From
Environmental Health and Safety Risks
H. Executive Order 13211: Actions Concerning Regulations That
Significantly Affect Energy Supply, Distribution, or Use
I. National Technology Transfer and Advancement Act
J. Executive Order 12898: Federal Actions To Address
Environmental Justice in Minority Populations and Low-Income
Populations
I. General Information
A. Potentially Affected Parties
In the NPDES program, point source dischargers obtain permits that
are issued by EPA regions and authorized NPDES States, Territories, and
Indian tribes (collectively referred to as ``permitting authorities'').
These point source dischargers include publicly owned treatment works
(POTWs) and various industrial and commercial facilities (collectively
referred to as ``NPDES applicants or permittees''). Permitting
authorities issue NPDES individual permits after analyzing the
information contained in the application and making a determination
that the application is ``complete'' under 40 CFR 122.21(e). In the
case of a general permit, authorization to be covered by the permit is
given if the information submitted demonstrates eligibility for
coverage under 40 CFR 122.28. The NPDES permit prescribes the
conditions under which the facility is allowed to discharge pollutants
into waters of the United States and the conditions that will ensure
the facility's compliance with the CWA's technology-based and water
quality-based requirements. NPDES permits typically include
restrictions on the mass and/or concentration of pollutants \1\ that a
permittee may discharge as well as requirements that the permittee
conduct routine sampling and reporting of various parameters measured
in the permitted discharge. In general, NPDES applicants and permittees
are required to use EPA-approved methods \2\ when measuring the
pollutants in their discharges.
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\1\ Where the term ``pollutant'' is used, it refers to both
pollutants and pollutant parameters.
\2\ For purposes of this rule, the term ``EPA-approved methods''
refers to methods that have been approved under 40 CFR part 136 or
are required under 40 CFR chapter I, subchapter N or O. This
includes analytical methods for CWA pollutants developed by EPA,
voluntary consensus standards bodies (VCSBs), and other government
agencies (such as the U.S. Geological Survey), as well as Alternate
Test Procedures (ATPs) developed by commercial method developers for
nation-wide use. These methods have been reviewed by EPA and
approved for use in compliance monitoring under the CWA. EPA
publishes lists of the EPA, VCSB, and other agency methods as well
as ATPs that it has found to be acceptable for such use at 40 CFR
Part 136, and at 40 CFR Chapter I, subchapters N and O. As a point
of clarification, this includes approved ATPs as described in 40 CFR
136.4 and 136.5.
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The purpose of today's final rule is to codify that where EPA-
approved methods exist, NPDES applicants must use sufficiently
sensitive EPA-approved analytical methods when quantifying the presence
of pollutants in a
[[Page 49002]]
discharge, and the Director \3\ must prescribe that only sufficiently
sensitive EPA-approved methods be used for analyses of pollutants or
pollutant parameters under the permit. The broad universe of entities
\4\ that would be affected by this final action includes NPDES
permitting authorities and municipal and industrial applicants and
permittees (Table I-1). This rule does not apply to indirect
dischargers as defined in 40 CFR 122.2. The impact of this action,
however, would only affect those entities that use or allow the use of
any EPA-approved analytical methods (for one or more parameters) that
are not ``sufficiently sensitive'' to detect pollutants being measured
in the discharge.
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\3\ The term ``Director'' refers to the permitting authority.
See definition at 40 CFR 122.2.
\4\ Although terms such as ``authorities,'' ``applicants,'' and
``permittees'' imply individuals, EPA uses these terms to refer to
entities. For example, EPA uses the term ``NPDES permitting
authorities'' to mean the EPA Regions, States, Territories, and
Indian tribes granted authority to implement and manage the NPDES
program. EPA uses the term ``NPDES applicants'' or ``NPDES
permittees'' to mean facilities that have applied for, sought
coverage under, or been issued an NPDES individual or general
permit.
Table I-1--Entities Potentially Regulated by This Rule
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Examples of potentially affected
Category entities
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State, Territorial, and Indian States, Territories, and Indian
Tribal Governments. tribes authorized to administer the
NPDES permitting program; States,
Territories, and Indian tribes that
provide certification under section
401 of the CWA.
Municipalities.................... POTWs required to apply for or seek
coverage under an NPDES individual
or general permit and to perform
routine monitoring as a condition
of any issued NPDES permit.
Industry.......................... Facilities required to apply for or
seek coverage under an NPDES
individual or general permit and to
perform routine monitoring as a
condition of any issued NPDES
permit.
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If you have any questions regarding the applicability of this
action to a particular entity, consult the person listed under FOR
FURTHER INFORMATION CONTACT.
B. Legal Authority
EPA is issuing today's final rule pursuant to the authority of
sections 301, 304(h), 308, 402(a), and 501(a) of the CWA [33 U.S.C.
1311, 1314(h), 1316, 1318, 1342(a), 1343, and 1361(a)]. Section 301(a)
of the CWA prohibits the discharge of any pollutant except in
compliance with an NPDES permit issued under section 402 of the act.
Section 402(a) of the CWA authorizes the Administrator to issue permits
that require a discharger to meet all the applicable requirements under
sections 301, 302, 306, 307, 308, and 403. Section 301(b) of the CWA
further requires that NPDES permits include effluent limitations that
implement technology-based standards and, where necessary, water
quality-based effluent limitations (WQBELs) that are as stringent as
necessary to meet water quality standards. With respect to the
protection of water quality, NPDES permits must include limitations to
control all pollutants that the NPDES permitting authority determines
are or might be discharged at a level that ``will cause, have the
reasonable potential to cause, or contribute to an excursion above any
state water quality standard,'' including both narrative and numeric
criteria [40 CFR 122.44(d)(1)(i)]. If the Director determines that a
discharge causes, has the reasonable potential to cause, or contributes
to such an excursion, the permit must contain WQBELs for the pollutant
[40 CFR 122.44(d)(1)(iii)]. Section 402(a)(2) of the CWA requires EPA
to prescribe permit conditions to ensure compliance with requirements,
``. . . including conditions on data and information collection,
reporting and such other requirements as [the Administrator] deems
appropriate.'' Thus, a prospective permittee might need to measure
various pollutants in its effluent at two stages: First, at the permit
application stage so that the Director can determine what pollutants
are present in the applicant's discharge and the amount of each
pollutant present and, second, to quantify the levels of each pollutant
limited in the permit to determine whether the discharge is in
compliance with the applicable limits and conditions.
Section 304(h) of the CWA requires the Administrator of EPA to ``.
. . promulgate guidelines establishing test procedures for the analysis
of pollutants that shall include the factors which must be provided in
any certification pursuant to [section 401of this Act] or permit
application pursuant to [section 402 of this Act].'' Section 501(a) of
the act authorizes the Administrator to ``. . . prescribe such
regulations as are necessary to carry out this function under [the
act].'' EPA generally has codified its test procedure regulations
(including analysis and sampling requirements) for CWA programs at 40
CFR part 136, although some requirements are codified in other parts
(e.g., 40 CFR chapter I, subchapters N and O).
The Director is required under 40 CFR 122.21(e) to determine when
an NPDES permit application is complete. Moreover, the Director shall
not begin processing an application for an individual permit until the
applicant has fully complied with the application requirements for that
permit [40 CFR 124.3(a)(2)]. Under 40 CFR 122.21(g)(13), applicants are
required to provide to the Director, upon request, such other
information as the Director may reasonably require to assess the
discharge. Finally, 40 CFR 122.41(j)(1) requires NPDES permits to
include a standard condition specifying that ``samples and measurements
taken for the purpose of monitoring shall be representative of the
monitored activity.''
Among other things, section 308 of the CWA authorizes EPA to
require owners or operators of point sources to establish records,
conduct monitoring activities, and make reports to enable the
permitting authority to determine whether there is a violation of any
prohibition or any requirement established under provisions including
section 402 of the CWA. Under sections 308(c) and 402(b)(2)(A), a
state's authorized NPDES program must have authorities to inspect,
monitor, enter, and require reports to at least the same extent as
required in section 308.
As summarized above, the legal requirements and authorities exist
for EPA to require NPDES applicants and permittees to use sufficiently
sensitive EPA-approved analytical methods when quantifying the presence
of pollutants in a discharge and to require the Director to require and
accept only such data.
II. Background
Multiple analytical test methods exist for many pollutants
regulated under the CWA. Therefore, EPA has generally
[[Page 49003]]
approved multiple methods for CWA pollutants under 40 CFR part 136 and
40 CFR chapter I, subchapters N and O. Some of the approved analytical
test methods have greater sensitivities and lower minimum levels
5 6 or method detection limits (MDLs) \7\ than other
approved methods for the same pollutant. This situation often occurs
because of advances made in instrumentation and in the analytical
protocols themselves. Many metals and toxic compounds (for example,
mercury) have an array of EPA-approved methods, including some methods
that have greater sensitivities and lower minimum levels than the
others.
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\5\ The term ``minimum level'' refers to either the sample
concentration equivalent to the lowest calibration point in a method
or a multiple of the method detection limit (MDL). Minimum levels
may be obtained in several ways: They may be published in a method;
they may be sample concentrations equivalent to the lowest
acceptable calibration point used by a laboratory; or they may be
calculated by multiplying the MDL in a method, or the MDL determined
by a lab, by a factor. [See: (A) 40 CFR 136, appendix A, footnotes
to table 2 of EPA Method 1624 and table 3 of EPA Method 1625 (49 FR
43234, October 26, 1984); (B) 40 CFR 136, section 17.12 of EPA
Method 1631E (67 FR 65876-65888, October 29, 2002); (C) 61 FR 21,
January 31, 1996; and (D) ``Analytical Method Guidance for the
Pharmaceutical Manufacturing Point Source Category,'' EPA 821-B-99-
003, August 1999].
\6\ For the purposes of this rulemaking, EPA is considering the
following terms related to analytical method sensitivity to be
synonymous: ``quantitation limit,'' ``reporting limit,'' ``level of
quantitation,'' and ``minimum level.''
\7\ The MDL is determined using the procedure at 40 CFR Part
136, appendix B. It is defined as the minimum concentration of a
substance that can be measured and reported with 99 percent
confidence that the analyte concentration is greater than zero and
is determined from analysis of a sample in a given matrix containing
the analyte.
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Although EPA has approved multiple analytical methods for
individual pollutants, the Agency has historically expected that
applicants would select from the array of available methods a specific
analytical method that is sufficiently sensitive to quantify the
presence of a pollutant in a given discharge. EPA has not expected that
NPDES permit applicants would select a method with insufficient
sensitivity, thereby masking the presence of a pollutant in their
discharge, when an EPA-approved sufficiently sensitive method is
available. Further, EPA anticipated that NPDES permitting authorities
would specify an EPA-approved method in an NPDES permit where the
Director determined that a particular analytical method was needed to
provide meaningful results relative to the permit limit. EPA believes
that the authority to prescribe a specific analytical method in an
NPDES permit exists under the current regulations. However, some state
permitting authorities expressed concern that this authority was not
explicit in current regulations, thus limiting states' ability to
prescribe an appropriate analytical method where needed to assess
compliance with permit limits. This rule requires that, where EPA-
approved methods exist, NPDES applicants must use sufficiently
sensitive EPA-approved analytical methods when quantifying the presence
of pollutants in a discharge and that the Director must prescribe that
only sufficiently sensitive EPA-approved methods be used for analyses
of pollutants or pollutant parameters under the permit.
EPA and state permitting authorities use data from the permit
application to determine whether pollutants are present in an
applicant's discharge and to quantify the levels of all detected
pollutants. These pollutant data are then used to determine whether
technology- or water quality-based effluent limits are needed in the
facility's NPDES permit. It is critical, therefore, that applicants
provide data that have been measured at levels that will be meaningful
to the decision-making process. Among other things, data must be
provided that will enable the Director to make a sound ``reasonable
potential'' determination and, if necessary, establish appropriate
water quality-based permit limits. The same holds true for monitoring
and reporting relative to permit limits established for regulated
parameters. The intent is for applicants and permittees to use
analytical methods that are capable of detecting and measuring the
pollutants at, or below, the respective water quality criteria or
permit limits.\8\
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\8\ To address this situation some state permitting authorities
have developed a list of monitored parameters and prescribed a
required minimum level that must be achieved for each parameter as a
part of their state regulations or policy.
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For example, in 2002 and 2007 EPA published two new analytical
methods for mercury that were several orders of magnitude more
sensitive than previously available methods. In addition, a number of
states have set water quality criteria for mercury that are below the
detection levels of the older methods for mercury that EPA approved
prior to 2002. Unlike the previous methods, the new methods are capable
of measuring whether effluent samples are above or below the current
water quality criteria. In 2007 EPA addressed this issue with respect
to mercury in a memorandum titled ``Analytical Methods for Mercury in
NPDES Permits,'' from James A. Hanlon, Director of EPA's Office of
Wastewater Management, to the Regional Water Division Directors. This
memorandum is available at http://www.epa.gov/npdes/pubs/mercurymemo_analyticalmethods.pdf. The memorandum explains EPA's expectation that
``All facilities with the potential to discharge mercury will provide
with their NPDES permit applications monitoring data for mercury using
Method 1631E or another sufficiently sensitive EPA-approved method.
Accordingly, EPA strongly recommends that the permitting authority
determine that a permit application that lacks effluent data analyzed
with a sufficiently sensitive EPA-approved method such as Method 1631E,
is incomplete unless and until the facility supplements the original
application with data analyzed with such a method.''
Following issuance of the 2007 memorandum, EPA determined that the
NPDES permit application regulations at 40 CFR 122.21 and the NPDES
permit monitoring requirements at 40 CFR 122.44 should be revised to
ensure that, where EPA-approved methods exist, applicants use
sufficiently sensitive EPA-approved analytical methods when quantifying
the presence of pollutants in a discharge and that Directors prescribe
that only sufficiently sensitive EPA-approved methods be used to
perform sampling and analysis for all pollutants, not just mercury.
Therefore, in this rulemaking, EPA is revising the regulations to
extend the requirement to use sufficiently sensitive EPA-approved
analytical test methods, where they exist, to all pollutants and
establish criteria for what qualifies as a ``sufficiently sensitive''
method.
This final rule requires that NPDES applicants must use
sufficiently sensitive EPA-approved analytical methods, where they
exist, when submitting information required by a permit application
quantifying the presence of pollutants in a discharge. If the applicant
does not provide data using a sufficiently sensitive EPA-approved
analytical method, the Director may determine that the application is
``incomplete'' per 40 CFR 122.21(e).The Director may require that the
applicant provide new screening data obtained using a sufficiently
sensitive EPA-approved analytical method before making a completeness
determination and moving forward with permit development. The final
rule also requires that, as a condition of permit development, to
assure compliance with permit limitations the permit shall include
requirements to monitor according to sufficiently sensitive EPA-
approved methods, where they exist.
[[Page 49004]]
Specifically, where an EPA-approved analytical method exists that would
provide quantifiable results necessary to assess compliance with a
permit limit and the permit allows monitoring to be conducted using
different analytical methods that, although approved, would fail to
produce data necessary to assess compliance, the permit would be
inconsistent with the NPDES permitting requirements of 40 CFR
122.44(i).
EPA is defining the term ``sufficiently sensitive'' in two sections
of the NPDES regulations: At 40 CFR 122.21(e) (Completeness), as a new
subsection (3), and at 40 CFR 122.44(i)(1)(iv) (Monitoring
Requirements). EPA is also modifying 40 CFR 136.1 (Applicability) by
adding a new paragraph (c), which is simply a cross-reference to the
changes being promulgated in 40 CFR 122.21(e)(3) and 40 CFR
122.44(i)(1)(iv). The new and revised sections indicate that an EPA-
approved method is sufficiently sensitive where:
A. The method minimum level is at or below the level of the
applicable water quality criterion or permit limitation for the
measured pollutant or pollutant parameter; or
B. In the case of permit applications, the method minimum level is
above the applicable water quality criterion, but the amount of the
pollutant or pollutant parameter in a facility's discharge is high
enough that the method detects and quantifies the level of the
pollutant or pollutant parameter in the discharge; or
C. The method has the lowest minimum level of the EPA-approved
analytical methods.
The requirement to use a ``sufficiently sensitive'' EPA-approved method
does not apply where no EPA-approved method exists. When no analytical
method is approved under 40 CFR part 136 or required under subchapter N
or O, and a specific method is not otherwise required by the Director,
an NPDES applicant may use any suitable method; however, the applicant
shall provide a description of the method.
The first two criteria, A and B, in the sufficiently sensitive
definition address situations in which EPA has approved multiple
methods for a pollutant and some of those approved methods have greater
sensitivities and lower minimum levels than others. In this situation,
the applicant or permitting authority may select a method based on the
minimum level published in the EPA-approved method, where available, or
using a derived minimum level. As noted in footnote 4, the minimum
level may be explicitly listed in some EPA-approved methods. Where this
is the case, the applicant may reference the published minimum level
when determining whether a method selected to provide data for their
permit application is sufficiently sensitive. Where EPA has included a
minimum level for a pollutant in a specific method, it reflects the
minimum level obtained in a multi-laboratory study of the new method in
a wide variety of matrices, many of which EPA selects due to their
complex nature. EPA acknowledges that complex matrices exist and
provides flexibility and suggestions for ways to mitigate interferences
in such instances, often within the published method for a specific
pollutant. EPA's experience is that many laboratories find solutions to
address difficult matrices and are able to achieve the published
minimum level within the required quality assurance specifications.
However, applicants have always had the option of calculating a matrix-
specific method detection limit (MDL). Extreme matrices may necessitate
the use of an elevated sample specific minimum level, in which case the
laboratory should be able to show that a reasonable effort (e.g.,
published cleanup procedures) was attempted to achieve as low a minimum
level as possible for those samples. The use of sample or matrix
specific minimum levels rather than the published levels has always
been an available option, and consistent with that flexibility, use of
a matrix-specific minimum level may sometimes be necessary when
determining which methods are sufficiently sensitive.
For EPA-approved methods that do not explicitly list minimum
levels, the applicant can derive the minimum level from either the
concentration of the lowest calibration standard in methods that
dictate the concentrations of such standards, or as a multiple of the
MDL or similar statistically derived detection limit concept. When the
method dictates, or recommends, the concentration of the lowest
calibration standard, that concentration can be converted to a minimum
level by considering the weights and/or volumes of the sample and all
of the intermediate preparation and analysis steps in the method. If a
method provides a literature MDL for the matrix of interest, that MDL
value can be used to estimate the minimum level as 10 times the
standard deviation of the replicate measurements used to determine the
MDL according to 40 CFR part 136, appendix B. However, MDLs are
inherently method- and laboratory-specific, so whenever a permittee is
contracting a laboratory for NPDES work, it is prudent to obtain that
laboratory's MDL and compare it to the published MDL to ensure that
both their MDL and their minimum level are appropriate for the intended
application.
The third criterion, C, of the definition addresses situations in
which none of the EPA-approved methods for a pollutant can achieve the
minimum levels necessary to assess reasonable potential or to monitor
compliance with a permit limit. In these situations, applicants or
permittees must use the method with the lowest minimum level among the
EPA-approved methods for the pollutant, and this method would meet the
definition of sufficiently sensitive.
As explained above, the requirement to use a ``sufficiently
sensitive'' EPA-approved method does not apply where no EPA-approved
methods exist. The final rule addresses these situations, for permit
applicants, where no approved analytical method exists under 40 CFR
part 136 or is required under subchapter N or O, and one is not
otherwise required by the Director. In such situations, an applicant
may use any suitable method but shall provide a description of the
method. With respect to pollutant limits in permits, where an EPA-
approved analytical method does not exist, monitoring shall be
conducted in accordance with a test procedure specified in the permit.
EPA recognizes that other factors beyond the minimum level or MDL
can also be important in determining method performance, including a
method's resolution, accuracy, and precision. Where there are no EPA-
approved methods, this rule does not affect how those other factors are
considered in selecting a method. Rather, the rule notes that permit
applicants may consider these other factors when selecting a suitable
method where no EPA-approved method exists.
For EPA-approved methods, however, these factors have already been
considered during the method validation and approval process. As
explained above, EPA evaluates method performance in a wide variety of
wastewater matrices and approves those methods that have sensitivity,
precision and accuracy that are appropriate for wastewater compliance
monitoring. 40 CFR 136.6 also allows flexibility to tailor approved
methods to more challenging wastewater matrices or overcome
methodological problems. Based on data and information provided to EPA
by analytical laboratories, EPA finds that experienced laboratories are
often capable of achieving minimum levels below those published with a
[[Page 49005]]
method while maintaining the precision and accuracy specified in the
method.
EPA acknowledges that while rare, methodological problems may exist
that could affect the determination of a ``sufficiently sensitive''
method. In such rare situations, the Director may consider additional
technical factors when determining whether the method is still
``sufficiently sensitive.'' Specifically, where the permit applicant or
permittees can demonstrate to the Director that despite a good faith
effort to overcome these methodological problems due to challenging
wastewater matrices, either (1) the method's minimum level is higher
than originally anticipated, or (2) the method results no longer meet
the methods quality assurance/quality control (``QA/QC'')
specification, the Director may take these factors into account when
determining whether the permit applicant has met the requirements to
use a ``sufficiently sensitive'' method or in prescribing a
``sufficiently sensitive'' method in the permit. In the first
situation, the matrix or sample-specific minimum level should be used
to evaluate which of the EPA-approved methods is ``sufficiently
sensitive.'' In the second situation, if the method's results are no
longer consistent with the QA/QC specifications, then the method is not
performing adequately and a ``sufficiently sensitive'' method should be
selected from the remaining EPA-approved methods. In either case, the
permit applicant or permittee is responsible for demonstrating that a
published minimum level is unachievable or a reasonable effort was
applied to bring the original sufficiently sensitive method within the
QA/QC specifications in the given matrix before selecting another EPA-
approved method (e.g., cleanup procedures, dilution when appropriate,
etc.).
Additionally, where a technology-based requirement is specified as
``zero discharge'' or ``no detect,'' the permitting authority may take
into account the sensitivity of the method used to establish the
requirement when determining if a method is ``sufficiently sensitive.''
EPA recognizes that if a more sensitive method is approved after such a
requirement has been established, its use may be inconsistent with the
technological basis of the original requirement. In situations where a
technology-based requirement reflects a technology that eliminates the
discharge of the subject pollutant altogether, the newer sensitive
method is appropriate. However, where a technology-based limit reflects
a technology that may not achieve the minimum level of the newer more
sensitive method, the Director may determine that the method on which
the requirement was originally based is ``sufficiently sensitive'' to
determine compliance, as understood at the time the requirement was
established.
For both EPA-approved methods and non-EPA-approved methods, EPA's
understanding of standard practice is that if an applicant/permittee or
laboratory has questions regarding the suitability of a specific method
in a given situation, or has technical questions on its use, it will
consult with its permitting authority. EPA has the same expectations in
connection with today's rulemaking for questions specifically about
which methods are sufficiently sensitive. The permitting authority
continues to have the ultimate responsibility for determining whether
an NPDES application is complete (40 CFR 122.21(e)) and establishing
permit conditions, including monitoring and reporting requirements (40
CFR 122.44(i)).
The amendments in this rulemaking affect only chemical-specific
methods; they do not apply to the Whole Effluent Toxicity (WET) methods
or their use. Note that existing EPA regulations (40 CFR
122.44(d)(1)(ii)) and policy require permit writers to take into
account the sensitivity of the species to toxicity testing when
evaluating whole effluent toxicity. EPA has interpreted this provision
as directing the permitting authority to develop criteria and limits
based upon the most sensitive test species to ensure that the most
sensitive species and all less sensitive species will be protected.
III. Summary of Public Comments and EPA's Response
On June 23, 2010, EPA proposed changes to the existing NPDES
regulations (75 FR 35712) and requested comments from the public. EPA
received 25 comment letters. The majority of the comments came from
publicly owned treatment works and industry organizations, but EPA also
received comments from laboratories, and state and federal agencies.
The majority of comments covered the following categories:
Implementation and technology; administration and timing; and burden.
The complete list of comments and responses is available in the record
of this rulemaking.
A. Implementation
1. Effect of the Rule on Current Practices
EPA received several comments that indicated the approach outlined
in the proposed rule would force applicants and permittees to make
decisions regarding the selection of an appropriate method without
adequate information upon which to base a decision. Specifically,
commenters indicated that issues related to the definition of the
method minimum level would make this rule difficult to implement and
that method sensitivity should not be the sole factor in deciding which
method should be used in the permitting process. They indicated that
there are other factors including accuracy, precision, selectivity, and
whether the method has been validated that should be considered.
In response, EPA notes that applicants for NPDES permits have
always needed to make decisions regarding which EPA-approved methods
are the most appropriate for use when performing the screening analyses
required under the various permit application regulations at 40 CFR
122.21. Similarly, NPDES permitting authorities, even before today's
rulemaking, have had to consider which of the EPA-approved methods are
the most appropriate for permittees to use to meet their monitoring and
reporting requirements under an NPDES permit. Today's rule does not
change the basic NPDES permit application or permit issuance process.
Under 40 CFR 122.21, permittees seeking permit renewal or new
applicants must provide the Director with adequate information to
determine whether an NPDES application is complete. Once the Director
makes this determination, the Director determines the applicable permit
requirements, including any sampling or monitoring that must be taken
that is ``representative of the monitored activity.'' See 40 CFR
122.41(j)(1). The effect of today's final rulemaking is to codify that
where EPA-approved methods exist, only ``sufficiently sensitive'' EPA-
approved methods may be used in connection with permit applications and
to conduct monitoring and reporting under a permit.
To determine whether an EPA-approved analytical method is
``sufficiently sensitive'' in any particular case, NPDES applicants/
permittees and permit authorities should use the best information
available on what the minimum level is for the method, and EPA believes
that in general a method's accurate minimum level will be readily
ascertainable. Where the minimum level is explicitly listed in the EPA-
approved method, applicants may reference the published minimum level
when determining whether a method selected to provide data for their
permit application is sufficiently sensitive. Alternatively, applicants
have always had the option of providing matrix-specific method
detection limits and
[[Page 49006]]
minimum levels rather than the published minimum levels, and nothing in
today's rule changes that flexibility, including with respect to
selecting a sufficiently sensitive EPA-approved method. For these cases
the laboratory should be able to show that a reasonable effort (e.g.,
published cleanup procedures) was attempted to achieve as low a minimum
level as possible for those samples. For EPA-approved methods that do
not explicitly list minimum levels, the minimum level can be obtained
or derived by the applicant or permitting authority. Indeed, many
permitting authorities have developed guidance, policies or regulations
that establish minimum levels for various methods, or specify specific
methods to be used by applicants and permittees. Where applicable,
these policies and regulations will continue to affect method
selection, although at the same time, states must ensure that such
policies and regulations conform with the criteria established in
today's rulemaking that, where they exist, only ``sufficiently
sensitive'' EPA-approved methods are being used when completing an
NPDES permit application and when performing sampling and analysis
pursuant to monitoring requirements in an NPDES permit. If the
applicant does not provide data using a sufficiently sensitive EPA-
approved analytical method where one exists, the Director may determine
that the application is ``incomplete'' per 40 CFR 122.21(e). The
Director may require that the applicant provide new screening data
obtained using a sufficiently sensitive EPA-approved analytical method
before making a completeness determination and moving forward with
permit development. Thus, to avoid having the permitting authority
reject data provided in an application because the data were not
collected by means of a ``sufficiently sensitive'' method, the NPDES
applicant should work closely with the permitting authority prior to
conducting the required analyses. In addition, the permitting authority
must ensure the permit includes a requirement to use a sufficiently
sensitive EPA-approved analytical test method, where one exists, where
necessary to perform sampling and analysis, consistent with 40 CFR
122.41(j) and 122.44(i).
2. Development of New or Alternate Test Procedures
EPA received several comments that indicated the proposed rule
would require the development of new analytical methods where no EPA-
approved methods exist or where existing EPA-approved methods would not
quantify the pollutant concentration at or below the level of the
criterion or permit limit. Other commenters indicated that the rule
would alter the existing requirements for developing Alternate Test
Procedures under 40 CFR part 136. EPA has modified the proposal to
address these comments, as explained below.
EPA has modified the proposed language for this final rule so that
it does not change existing regulatory requirements with respect to
unapproved methods. Where no EPA-approved analytical methods exist, an
applicant will need to select a method from another source of available
analytical methods (e.g., Standard Methods for the Examination of Water
and Wastewater) to measure that pollutant or pollutant parameter.
Today's final rule does not require the applicant to develop new
methods. The situation in which there are no EPA-approved methods is
uncommon because there are EPA-approved methods for most pollutants or
pollutant parameters screened and regulated under the NPDES program.
Under the existing regulations at 40 CFR 122.21(g)(7), the NPDES
applicant has the flexibility to use any suitable analytical method
when no EPA-approved analytical method exists for that pollutant or
pollutant parameter. Additionally, under the existing regulations at 40
CFR 122.44(i)(1)(iv), the NPDES permitting authority specifies a method
in the permit when there is no EPA-approved method.
Where EPA-approved methods exist, but none of the available methods
will quantify the pollutant concentration at or below the level of the
criterion or permit limit, today's rulemaking does not require the
development of any new analytical methods. However, in this situation,
the rule will now require the use of the most sensitive of the EPA-
approved methods.
Finally, today's rulemaking does not alter any of the existing
requirements related to the development or approval of alternative test
procedures under 40 CFR 136.4 and 136.5.
3. Consideration of Matrix Effects in Selecting a Sufficiently
Sensitive Method
EPA received several comments that indicated the approach outlined
in the proposed rule would force applicants and permittees to make
decisions regarding the selection of an appropriate method without
adequate information upon which to base a decision. Specifically,
commenters indicated that issues related to the definition of the
method minimum level would make this rule difficult to implement and
that method sensitivity should not be the sole factor in deciding which
method should be used in the permit process. They believe there are
other critical factors including accuracy, precision, selectivity, and
whether the method has been validated.
In response, as noted above, EPA has clarified that the requirement
to use a ``sufficiently sensitive'' EPA-approved method does not apply
where no EPA-approved method exists. EPA agrees that other factors
beyond the minimum level can also be important in determining method
performance, including a method's selectivity, resolution, accuracy,
and precision. EPA has added language in the rule text that clarifies
where no EPA-approved methods exist, permit applicants may consider
these other factors, in conjunction with sensitivity, when selecting an
appropriate method.
For EPA-approved methods, however, these factors have already been
considered during the method validation and approval process. As
explained above, EPA evaluates method performance in a wide variety of
wastewater matrices and approves those methods that have selectivity,
sensitivity, precision and accuracy that are appropriate for wastewater
compliance monitoring. 40 CFR 136.6 also allows flexibility to tailor
approved methods to more challenging wastewater matrices. EPA notes
that applicants have always had the option of providing matrix or
sample-specific minimum levels rather than the published levels and
nothing in today's rule changes that flexibility, including with
respect to selecting a sufficiently sensitive EPA-approved method. For
these cases the laboratory should be able to show that a reasonable
effort (e.g., published cleanup procedures) was attempted to achieve as
low a minimum level as possible for those samples.
If the most sensitive method listed in 40 CFR Part 136 is not
performing adequately in a given wastewater matrix (e.g., with regard
to sensitivity, accuracy, and precision), several options are available
and should be pursued. Dilution is often a good option if it does not
drive the sample specific minimum level above the permit requirements.
Cleanup procedures included in the method can also be utilized. If
those cleanups do not prove adequate for a particular matrix, the
analyst should consult ``Solutions to Analytical Chemistry Problems
with Clean Water Act Methods,'' EPA 821-R-07-002 (or more recent
revisions) to
[[Page 49007]]
determine if another cleanup procedure may be appropriate. If a
solution is still not apparent, the permittee should consult EPA or the
permitting authority.
Based on data and information provided to EPA by analytical
laboratories, EPA finds that experienced laboratories are often capable
of achieving minimum levels below those published with a method while
maintaining the precision and accuracy specified in the method.
However, EPA acknowledges that while rare, situations may exist where a
method cannot perform adequately in a specific matrix. In such rare
situations, the Director may consider additional technical factors when
determining whether the method is still ``sufficiently sensitive.''
Specifically, where the permit applicant or permittees can demonstrate
to the Director that despite a good faith effort to overcome these
methodological problems due to challenging wastewater matrices, either
(1) the method's minimum level is higher than originally anticipated,
or (2) the method results no longer meet the methods QA/QC
specification, the Director may take these factors into account when
determining whether the permit applicant has met the requirements to
use a ``sufficiently sensitive'' method or in prescribing a
``sufficiently sensitive'' method in the permit. In the first
situation, the matrix or sample-specific minimum level should be used
to evaluate which EPA-approved method is ``sufficiently sensitive.'' In
the second situation, if the method's results are no longer consistent
with the QA/QC specifications, then the method is not performing
adequately and a ``sufficiently sensitive'' method should be selected
from the remaining EPA-approved methods. In either case, the permit
applicant or permittee is responsible for demonstrating that a
published minimum level is unachievable or a reasonable effort was
applied to bring the original sufficiently sensitive method within the
QA/QC specifications in the given matrix before selecting another EPA-
approved method (e.g., cleanup procedures, dilution when appropriate,
etc.). To illustrate the type of situations where this provision would
be appropriate, EPA provides two examples below.
EPA received comments about the situation where there are multiple
EPA-approved methods for an organic pollutant and the methods employ
different technologies (i.e., gas chromatography (GC) and gas
chromatography/mass spectrometry (GC/MS)). These commenters raised
concern that, in some instances, while the GC method may provide a
lower detection limit, the GC/MS method provides a greater degree of
confidence in the correct identification of the regulated parameter. As
explained above, this is not an issue if the laboratory has
demonstrated that it can achieve a minimum level for GC/MS that is
lower than the NPDES permit limit for the regulated parameter, in which
case GC/MS would be considered ``sufficiently sensitive.'' EPA agrees
that GC/MS is more selective than GC, but several options are available
to remove the interferences from difficult matrices before using a
dual-column GC method (e.g., solid-phase extraction as a cleanup
procedure, Florisil cleanup, alumina cleanup, sulfur removal with
copper or TBA sulfite, gel permeation chromatography, etc.). Generally,
a result from a dual-column GC method would only be questioned if the
chromatograms from the two columns did not yield similar numerical
results or if the chromatograms contained many extraneous peaks that
suggest interferences are present. If the permit applicant or permittee
is still concerned that the peaks may be caused by a different
contaminant, and the GC method provides a false positive result, the
permit applicant or permittee could use a GC/MS to confirm the presence
of the contaminant. However, since the GC/MS is less sensitive, it may
not be able to confirm low-level dual column GC results. The more
sensitive GC/MS method options (e.g., larger sample volume, smaller
final extract volume, selected ion monitoring techniques, or high
resolution GC/MS) may be necessary to prove whether the dual column GC
result is a false positive. The permittee should also consult with EPA
and/or its permitting authority for potential solutions. In this case,
if the permittee has exhausted all practical options (e.g., solid-phase
extraction as a cleanup procedure, Florisil cleanup, alumina cleanup,
sulfur removal with copper or TBA sulfite, gel permeation
chromatography, etc.) and has documentation to demonstrate that the
dual-column GC creates false positive results for that specific matrix,
then the Director would appropriately approve the selection of a
different EPA-approved method that would then be considered a
sufficiently sensitive method (e.g., GC/MS).
As another example, EPA also received comments specific to Method
1631 for mercury. These commenters noted that use of the ``clean''
sampling methods associated with this method to minimize potential
contamination from the sampling technique itself is not possible in
many industrial settings. They noted that EPA's documentation of the
sampling technique acknowledges it is not intended for treated and
untreated discharges from industrial uses. EPA notes that since
approval of this method and the associated clean sampling techniques,
these techniques have been successfully used in some industrial
settings. For example, sewage treatment plants accepting industrial
wastewater have successfully eliminated permit exceedances for mercury
as measured by Method 1631 by employing the clean sampling procedures.
Where the permittee has documentation that clean sampling techniques
cannot be adopted for the site-specific application, the Director would
appropriately approve the selection of a different EPA-approved method
that meets the definition of a sufficiently sensitive method (e.g., the
one with the lowest minimum level of the remaining EPA-approved
methods). If the ambient level of mercury contamination at the site is
too high to use clean sampling methods, then using a less sensitive
EPA-approved method can meet the definition of a sufficiently sensitive
method.
Another commenter raised concerns specific to Method 1631. They
questioned the method's suggestion to minimize laboratory contamination
by soaking laboratory air filters in gold chloride solution so that
mercury in incoming air will amalgamize with the filter's gold. This
commenter questioned whether or not it was EPA's expectation that
laboratories go to such lengths to employ such a sufficiently sensitive
method where required under this rule. EPA notes the procedure
described by the commenter is only a suggestion if laboratories are
having problems with laboratory contamination. There are now many
laboratories that perform Method 1631 without undue difficulty. In this
case, where necessary to meet the definition of ``sufficiently
sensitive'' in today's final rule, EPA would expect that the permittee
use Method 1631, since the permittee should send their sample to a
laboratory that can demonstrate it has control over sources of mercury
within its own environment.
Finally, where a technology-based requirement is specified as
``zero discharge'' or ``no detect,'' the permitting authority may take
into account the sensitivity of the method used to establish the
requirement when determining if a method is ``sufficiently sensitive.''
EPA recognizes that if a more sensitive method is approved after such a
requirement has been established, its use may be inconsistent with the
technological basis of the original requirement. In situations where a
[[Page 49008]]
technology-based requirement reflects a technology that eliminates the
discharge of the subject pollutant altogether, the newer sensitive
method is appropriate. However, where a technology-based limit reflects
a technology that may not achieve the minimum level of the newer more
sensitive method, the Director may determine that the method on which
the requirement was originally based is ``sufficiently sensitive'' to
determine compliance, as understood at the time the requirement was
established.
4. Report of the Federal Advisory Committee on Detection and
Quantitation Approaches and Uses in Clean Water Act Programs
EPA received a number of comments that identified concerns that the
proposed rule uses terms, such as minimum level, that are not defined
in new or existing regulations. Commenters also indicated that the
proposed rule fails to address a variety of issues regarding detection
and quantitation that were raised in the Report of the Federal Advisory
Committee on Detection and Quantitation Approaches and Uses in Clean
Water Act Programs. EPA agrees that there are a variety of related
issues raised in the aforementioned report, yet notes that the members
of the Federal Advisory Committee (FAC) were unable to reach consensus
over several key issues in the report. While several of these issues,
such as the definition of minimum level, are discussed in today's
rulemaking, applicants and permitting authorities must still, on a
regular and ongoing basis, choose which of the available analytical
methods are most appropriate for use when screening effluent for permit
applications and as part of permit conditions. This has always been the
case, regardless of today's rulemaking.
EPA believes that the requirements of the rule are adequately
described and can be implemented without having to address the myriad
of issues considered by the FAC. For today's rulemaking, EPA is not
redefining or establishing new method detection limits (MDLs) or
minimum levels, developing new procedures for determining detection or
quantitation, or maintaining a clearinghouse on detection and
quantitation issues. EPA considers such issues to be outside the scope
of today's rulemaking.
5. Other Factors Affecting Selection of Analytical Methods
EPA received several comments that expressed concern that the rule
would require the use of only the most sensitive available method, and
that other factors such as geographical isolation or unique sample
collection constraints might preclude the use of certain available
methods. Some comments also expressed concerns regarding the
availability of laboratories qualified to conduct some of the more
sensitive analytical methods, particularly where the state requires
applicants and permittees to use laboratories certified by the state to
conduct analyses.
EPA is not requiring the use of any specific analytical technology
or practice over others; only that the selected EPA-approved method is
sufficiently sensitive. EPA expects that, in general, factors such as
geographical isolation, or unique sampling collection constraints would
not preclude the selection of a sufficiently sensitive method. The
definition does not require the use of the most sensitive EPA-approved
method available, so long as a less sensitive approved method still
meets the criteria for being ``sufficiently sensitive.'' In cases where
factors beyond a facility's control render the use of a particular
method infeasible, such as extreme geographical isolation, the
permitting authority could consider such factors in deciding which
method best meets the definition of ``sufficiently sensitive.'' EPA
expects such situations would be rare.
Issues related to sampling procedures, such as holding times, are
frequently prescribed by the test procedures in 40 CFR Part 136, and
may be contingent on the unique physical, chemical, and biological
characteristics of the discharge. Standard practice has been and
continues to be that if an applicant/permittee or laboratory has
questions regarding the appropriateness of using a specific method in a
given situation, or has technical questions on its use, it should
consult with its permitting authority prior to conducting monitoring.
B. Administration and Timing
EPA received a few comments regarding the effect of the rule on
recordkeeping and reporting requirements. The rule does not change
existing recordkeeping and reporting requirements at 40 CFR 122.21(p),
122.41(j) and 122.48. The permitting authority, however, has
discretionary authority to require its applicants or permittees to
provide information under the latter two provisions. In addition, a few
comments asked whether the rule alters the terms or conditions of
existing permits. The rule itself does not modify the terms or
conditions of existing NPDES permits. If, under the requirements of
today's rulemaking, a change needs to occur in the analytical methods
specified in an existing permit, that change would occur at the time of
permit renewal, or it could occur through a permit modification under
the procedures of 40 CFR Part 124, if the permitting authority
determined that such a modification was appropriate.
EPA received a few comments regarding whether existing data, if
collected using insufficiently sensitive methods, will be acceptable
for submission with an application for permit renewal. NPDES
application monitoring data that is collected after the effective date
of the rule, or, if applicable, after an authorized state has revised
its regulations to adopt the provisions of the rule,\9\ must be based
on the use of sufficiently sensitive test methods. However, the rule
does not negate the existing requirement for applicants to submit data
from previous years, even where these data may have been collected
using methods that did not conform to the sufficiently sensitive
criteria established in this rule. Based on all of the data submitted
with the permit application, the permitting authority will determine
whether it has information adequate to develop an NPDES permit. Where
the permitting authority determines that data was collected using
insufficiently sensitive methods, it may choose to disregard this
information and accept only data collected employing sufficiently
sensitive EPA-approved methods. In addition, even prior to the
effective date of today's rulemaking, the permitting authority has the
authority under the existing NPDES regulations to request additional
data from applicants where insufficient data is provided with the
application before considering an application complete.
---------------------------------------------------------------------------
\9\ Authorized NPDES states have up to one year following rule
issuance to revise their own regulations to conform to the
requirements of this rule. Authorized NPDES states have up to two
years to conform to the rule's requirements if they must make
statutory changes.
---------------------------------------------------------------------------
EPA received a few comments pertaining to the rule's impact on
indirect dischargers. The rule affects only direct dischargers (those
applying for an individual NPDES permit) and state/EPA NPDES permitting
authorities. The rule does not apply to indirect dischargers. POTWs
with approved pretreatment programs may at their discretion (as
authorized by their local ordinances and regulations) require their
indirect dischargers to achieve specific minimum levels when performing
analyses or may require the use of specific methods to enable them to
better characterize contributions into their system. Where a state or
EPA is the
[[Page 49009]]
pretreatment Control Authority, the specific requirements for
analytical methods can be specified in the control mechanism issued to
the indirect discharger.
EPA received several comments that indicated that while the
commenters supported the concept established in the proposed rule, they
believed additional flexibility should be provided to account for
instream dilution. Specifically, the commenters requested that the
criteria defining sufficiently sensitive be revised such that the
minimum level would be compared to either ``the applicable water
quality criterion, wasteload allocation, permit limit, or other
critical regulatory value.'' EPA believes that the final rule need only
require comparison of a method's minimum level with the applicable
water quality criterion, as proposed, and that this language is
sufficiently flexible to address the commenters' concern. Under this
language, the permitting authority has adequate discretion to determine
whether the data provided with a permit application were collected with
methods that are sufficiently sensitive to measure at the relevant
regulatory value. For example, where a permitting authority has
conducted a timely and relevant dilution analysis (including an
evaluation of ambient pollutant concentrations) and documented this
analysis in the permit record, the permitting authority could provide
this information to the applicant prior to the applicant sampling for
the permit application. The applicant would then only need to show that
the method it has selected has a minimum level that is at least as
sensitive as necessary to determine compliance with the water quality
criterion, after accounting for allowable dilution. The water quality
criterion as adjusted for allowable dilution would be the ``applicable
water quality criterion'' in this case, and the method would be
``sufficiently sensitive'' if it measures at this level. EPA considers
this approach consistent with the requirements established in today's
rule. For these reasons, EPA is not revising the regulatory text to
incorporate the language suggested by the commenters.
C. Burden
EPA received a few comments indicating that site-specific
situations might increase the implementation costs of the rule beyond
those costs outlined in the proposed rule. Some of these commenters
provided examples of when site-specific conditions might result in
increased costs. EPA recognizes that the burden estimated is a national
average and that the cost for an individual facility could be higher or
lower than that average. However, EPA does not believe that the
information provided by the commenters is representative of the impact
for a typical facility affected by this rule, nor does it alter the
Agency's original burden estimates.
EPA also recognizes that in some cases, use of a more sensitive
method could have the practical effect of requiring a facility to adopt
additional pollution control measures, even if the permit limit
remained unchanged. This is because a more sensitive method may detect
the presence of a pollutant that was previously undetected. EPA
emphasizes that this rule would not be responsible for any change in
stringency of the permit requirements in such a case, but acknowledges
that a facility may incur additional pollution control costs if a
previously undetected pollutant is later detected by the use of a
sufficiently sensitive method, and additional treatment is required to
meet the existing permit limit. In general, when EPA develops a cost
analysis for a new regulation, there is an assumption made of full
compliance with existing requirements. EPA does not have data that
would allow it to predict in advance where or how often this situation
might occur, or what a facility would be required to do to address it.
Therefore, EPA has not attempted to quantify any such costs, as they
are outside the scope of this rulemaking.
As noted above, where a technology-based requirement is specified
as ``zero discharge'' or ``no detect,'' the permitting authority may
take into account the sensitivity of the method used to establish the
requirement when determining if a method is ``sufficiently sensitive.''
EPA recognizes that if a more sensitive method is approved after such a
requirement has been established, its use may be inconsistent with the
technological basis of the original requirement. In situations where a
technology-based requirement reflects a technology that eliminates the
discharge of the subject pollutant altogether, the Agency included
costs that reflect that technology, the newer sensitive method is
appropriate, and the permittee would not incur additional costs.
However, where a technology-based limit reflects a technology that may
not achieve the minimum level of the newer more sensitive method, the
Director may determine that the method on which the requirement was
originally based is ``sufficiently sensitive'' to determine compliance,
as understood at the time the requirement was established, and there
would thus be no additional control costs incurred by the facility.
EPA received a few comments regarding compliance with requirements
under the statutory and Executive Order reviews contained in the
proposed rule. EPA believes that there was a misunderstanding on the
part of the commenters regarding the intent of the rule that led the
commenters to believe that the rule would result in a higher cost of
implementation than that estimated by EPA. EPA believes that the Agency
has met its responsibilities under the applicable statutory and
Executive Orders.
IV. The Final Rule
The final rule adds a new 40 CFR 122.21(e)(3) and revises
122.44(i)(1)(iv) to require that where EPA-approved methods exist,
NPDES applicants use sufficiently sensitive EPA-approved analytical
methods when submitting information quantifying the presence of
pollutants in a discharge and that the Director must prescribe that
only sufficiently sensitive EPA-approved analytical test methods be
used for analyses of pollutants or pollutant parameters under the
permit. EPA is also providing a cross-reference to these changes in a
new 40 CFR 136.1(c). For the purposes of this rulemaking, if monitoring
requirements are included as a condition of a general permit, those
requirements are subject to the provisions established in
122.44(i)(1)(iv). Only these specific parts of the regulations
undergoing revision are subject to challenge under section 509(b) of
the Clean Water Act.
In addition, based on public comments, EPA made certain minor
modifications to the final rule from the original proposal.
Specifically, EPA amended 122.21(e)(3)(i)(B) and 122.44(i)(1)(iv)(A)(1)
to add the word ``or'' when defining the term ``sufficiently
sensitive,'' which was unintentionally omitted in the proposed rule. In
addition, EPA added ``pollutant or pollutant parameter'' to
122.21(e)(3)(i)(C) and 122.44(i)(1)(iv)(A) to clarify the applicability
of the criteria established under the sufficiently sensitive method
definition. EPA also removed the second ``in accordance with'' in the
introductory paragraphs for 122.21(e)(3) and 122.44(i)(1)(iv) to
clarify that the method selected must be approved under 40 CFR part 136
or required under 40 CFR chapter I, subchapter N or O.
EPA removed language in 122.44(i)(1)(iv)(A)(2) of the proposed rule
because it was not applicable to requirements established in this
section and created confusion about the implementation of the rule. In
this instance, even if the permittee believes
[[Page 49010]]
they are discharging above the permit limit and could potentially use a
less sensitive method, the permitting authority is responsible for
prescribing an EPA-approved method, where available, that is sensitive
enough to detect at or below the permit limit in order to properly
assess compliance with the permit.
EPA revised the proposed regulatory text at 122.21(e)(3)(ii) and
122.41(i)(1)(iv)(B) for instances where there are no EPA-approved
methods. The proposed language included additional requirements for
situations where there are no EPA-approved methods. Specifically, the
proposed rule would have required that applicants and permitting
authorities select a ``sufficiently sensitive'' non EPA-approved method
and that applicants provide a description of the method, including the
minimum level. The situation in which there are no EPA-approved methods
is uncommon because there are EPA-approved methods for most pollutants
or pollutant parameters screened and regulated under the NPDES program.
In addition, the existing regulations already require that applicants
select a suitable method and provide a description of the method. Based
on public comments, EPA determined that this additional requirement was
unnecessary and has revised the regulatory text to revert the existing
language in 40 CFR 122.21 and 122.41. As a result, today's rule does
not specify that non-EPA-approved methods must be sufficiently
sensitive. To clarify this point, EPA also added language to the
introduction of 122.21(e)(3) to specify that the requirement to use a
sufficiently sensitive method applies ``except as specified in
122.21(e)(3)(ii).''
EPA amended 122.21(e)(3)(ii) by adding regulatory text to clarify
that in the case where there are no EPA-approved methods, applicants
may consider other relevant factors when selecting an appropriate
method. In addition, EPA revised the proposed regulatory text to change
``or otherwise required by the Director'' to ``and not otherwise
required by the Director'' to clarify that this provision applies to a
situation where no EPA-approved methods exist and the Director has not
required the use of a specific non-EPA-approved method. In this
situation, the permit applicant may select a suitable non-EPA-approved
method and provide a description of the method.
Finally, in both places where the new definition of ``sufficiently
sensitive'' appears, EPA added a note to clarify that, consistent with
40 CFR part 136, permittees have the option of providing matrix or
sample-specific minimum levels rather than the published levels. In
addition, the note clarifies that where a permittee can demonstrate
that, despite a good faith effort to use a method that would otherwise
meet the definition of ``sufficiently sensitive,'' the analytical
results are not consistent with the QA/QC specifications for that
method, then the Director may determine that the method is not
performing adequately and a different method should be selected from
the remaining EPA-approved methods consistent with 40 CFR
122.21(e)(3)(i) and 40 CFR 122.44(i)(1)(iv)(A). Where no other EPA-
approved methods exist, a method should be selected consistent with 40
CFR 122.21(e)(3)(ii) and 40 CFR 122.44(i)(1)(iv)(B).
V. Impacts
Entities that discharge to waters of the United States vary in
terms of the quantity of their discharges, the potential constituents
contained in their discharges, and their operation and maintenance
practices. Consequently, the Director's NPDES application requirements
vary depending on applicant type. For example, Form 2A for
municipalities requires minimal screening for POTWs with design flows
under 100,000 gallons per day; however, for POTWs with design flows
above 1 million gallons per day, multiple priority pollutant scans are
required. Similarly, existing industrial and commercial facilities that
complete Form 2C are required to test for toxic pollutants based on the
nature of their manufacturing operation. To assist permitting
authorities (EPA regions, States, and Tribes), EPA developed several
NPDES permit application forms. Table IV-1 provides a list of these
forms and the discharger type(s) for which they are intended.
Permitting authorities may use EPA's forms or comparable forms of their
own.
Table IV-1--EPA NPDES Permit Application Forms by Applicant Type
------------------------------------------------------------------------
Form or request Applicant type
------------------------------------------------------------------------
1............ Form 1.............. New and existing applicants, except
POTWs and treatment works treating
domestic sewage.
2............ Form 2A............. New and existing POTWs (i.e.,
municipal facilities).
3............ Form 2B............. New and existing concentrated
animal feeding operations (CAFOs)
and aquatic animal production
facilities.
4............ Form 2C............. Existing industries discharging
process wastewater.
5............ Form 2D............. New industries discharging process
wastewater.
6............ Form 2E............. New and existing industries
discharging non-process wastewater
only.
7............ Form 2F............. New and existing industries
discharging stormwater.
8............ 40 CFR 122.21(r) and New and existing industries with
122.22(d). cooling water intake structures.
9............ Form 2S............. New and existing POTWs and other
treatment works treating domestic
sewage (covers sludge).
------------------------------------------------------------------------
As noted earlier, permitting authorities issue and develop effluent
limitations for individual NPDES permits after analyzing the data
contained in each permittee's application. The NPDES permit prescribes
the conditions under which the facility is allowed to discharge to
ensure the facility's compliance with the CWA's technology-based and
water quality-based requirements. NPDES permits typically include
restrictions on the quantity of pollutants that a permittee may
discharge and require the permittee to conduct routine measurements of,
and report on, a number of parameters using EPA-approved, pollutant-
specific test procedures (or approved alternative test procedures).
In 2012 EPA submitted an Information Collection Request (ICR) to
the Office of Management and Budget (OMB) that, in part, updated the
Agency's burden estimates for applicants to complete Forms 1, 2A, 2C-
2F, and 2S and for permitting authorities to review and process such
forms.\10\ The renewal ICR did not include updated estimates for Form
2B or for forms associated with cooling water intake structures (Item 8
in Table IV-1). Updated estimates to complete
[[Page 49011]]
those forms were contained in separate ICRs.\11\ The existing ICRs
include annual burden estimates for completing NPDES permit
applications and for conducting ongoing compliance monitoring for both
new and existing NPDES permittees. EPA's expectation is that permit
applicants and permittees will use a range of methods based on a need
to appropriately quantify pollutants in their discharge. To calculate
cost and burden, the ICRs use an average cost for analytical methods,
which is then translated into burden hours.
---------------------------------------------------------------------------
\10\ USEPA. ``Information Collection Request (ICR) for National
Pollutant Discharge Elimination System (NPDES) Program (Renewal),''
OMB Control No. 2040-0004, EPA ICR No. 0229.20, March 2012.
\11\ USEPA. ``Supporting Statement for the Information
Collection Request for the NPDES Regulation and Effluent Limitation
Guidelines and Standards for Concentrated Animal Feeding
Operations,'' OMB Control No. 2040-0250, EPA ICR No. 1989.09,
January 2014.
USEPA, ``Information Collection Request (ICR) for Cooling Water
Intake Structures at Phase III Facilities (Final Rule),'' OMB
Control No. 2040-0268, EPA ICR No. 2169.05, January 2014.
USEPA, ``Information Collection Request (ICR) for Cooling Water
Intake Structures Phase II Existing Facilities (Renewal),'' OMB
Control No. 2040-0257, EPA ICR No. 2060.06, January 2014.
USEPA, ``Information Collection Request (ICR) for Cooling Water
Intake Structures New Facility Rule (Renewal),'' OMB Control No.
2040-0241, EPA ICR No. 1973.05, December 2011.
---------------------------------------------------------------------------
To assess the impact of this final rule, EPA also assessed the cost
information for 40 CFR Part 136 methods found in the National
Environmental Methods Index (NEMI) at http://www.nemi.gov. The NEMI
site describes the ``relative cost'' as the cost per procedure of a
typical analytical measurement using the specified methods (i.e., the
cost of analyzing a single sample). Additional considerations affect
total project costs (e.g., labor and equipment/supplies for a typical
sample preparation, quality assurance/quality control requirements to
validate results reported, number of samples being analyzed). EPA's
review of the cost ranges provided in NEMI indicated that there was
generally little difference in the cost ranges across the EPA-approved
analytical methods for a particular pollutant. A table with the NEMI
cost ranges is included in the record. While EPA acknowledges that
there are cost differentials for some facilities based on case-specific
situations, on the basis of the analytical cost ranges provided in
NEMI, and the assumptions used in the current ICRs (i.e., that
applicants and permittees will use a range of available approved
methods), the final rule is expected to result in little or no new or
increased analytical burden to applicants or permittees.
The existing ICRs also account for the ongoing burden to permitting
authorities to review applications and to issue NPDES permits annually.
They also account for the ongoing burden associated with reviewing
discharge monitoring and other reports for compliance assessment
purposes. Finally, the existing ICRs account for program revisions
where they are necessary because the controlling Federal statutes or
regulations were modified.
As noted above, EPA also recognizes that in some cases, use of a
more sensitive method could have the practical effect of requiring a
facility to adopt additional pollution control measures, even if the
permit limit remained unchanged. EPA does not have data that would
allow it to predict in advance where or how often this situation might
occur, or what a facility would be required to do to address it. EPA
has not attempted to quantify the costs of any such new control
measures that might be adopted, as they are outside the scope of this
rulemaking.
VI. Compliance Dates
Following issuance of this rule, authorized states have up to one
year to revise, as necessary, their NPDES regulations to adopt the
requirements of this rule, or two years if statutory changes are
needed, as provided at 40 CFR 123.62.
VII. Statutory and Executive Order Reviews
A. Executive Order 12866: Regulatory Planning and Review and Executive
Order 13563: Improving Regulation and Regulatory Review
Under Executive Order 12866 (58 FR 51735, October 4, 1993), this
action is a ``significant regulatory action.'' Accordingly, EPA
submitted this action to the Office of Management and Budget (OMB) for
review under Executive Orders 12866 and 13563 (76 FR 3821, January 21,
2011) and any changes made in response to OMB recommendations have been
documented in the docket for this action.
B. Paperwork Reduction Act
This action does not impose any new information collection burden.
The final rulemaking requires the use of sufficiently sensitive EPA-
approved analytical test methods, where they exist, when applying for
an NPDES permit and when performing sampling and analysis pursuant to
monitoring requirements in an NPDES permit. However, it does not change
the recordkeeping or reporting requirements associated with the use of
analytical methods. The Office of Management and Budget (OMB) has
previously approved the information collection requirements contained
in the existing regulations (which cover all potential NPDES
applicants) under the provisions of the Paperwork Reduction Act, 44
U.S.C. 3501 et seq. and has assigned OMB control numbers, as summarized
in section V (Impacts) of this preamble. The OMB control numbers for
EPA's regulations in 40 CFR are listed in 40 CFR part 9.
C. Regulatory Flexibility Act
The Regulatory Flexibility Act generally requires an agency to
prepare a regulatory flexibility analysis of any rule subject to notice
and comment rulemaking requirements under the Administrative Procedure
Act or any other statute unless the agency certifies that the rule will
not have a significant economic impact on a substantial number of small
entities. Small entities include small businesses, small organizations,
and small governmental jurisdictions.
For purposes of assessing the impacts of this final rule on small
entities, ``small entity'' is defined as (1) a small business based on
the Small Business Administration regulations at 13 CFR 121.201; (2) a
small governmental jurisdiction that is a government of a city, county,
town, school district, or special district with a population of less
than 50,000; or (3) a small organization that is any not-for-profit
enterprise which is independently owned and operated and is not
dominant in its field.
After considering the economic impacts of this final rule on small
entities, I certify that this action will not have a significant
economic impact on a substantial number of small entities. EPA has
determined that the incremental analytical costs that NPDES permit
applicants and permittees may bear as a result of this rule are minimal
and would not rise to the level of a significant economic impact on a
substantial number of small entities.
D. Unfunded Mandates Reform Act
This rule does not contain a Federal mandate that might result in
expenditures of $100 million or more for state, local, and tribal
governments, in the aggregate, or the private sector in any one year.
Thus, this final rule is not subject to the requirements of sections
202 and 205 of the UMRA. EPA has further determined that this rule
contains no regulatory requirements that might significantly or
uniquely affect small governments. Thus, this final rule is not subject
to the requirements of section 203 of UMRA.
[[Page 49012]]
E. Executive Order 13132: Federalism
This final rule does not have federalism implications. When
promulgated, it will not have substantial direct effects on the States,
on the relationship between the national government and the States, or
on the distribution of power and responsibilities among the various
levels of governments, as specified in Executive Order 13132 (64 FR
43255, August 10, 1999). This final rule does not change the
relationship between the national government and the States or change
their roles and responsibilities. Rather, this final rulemaking
requires that sufficiently sensitive EPA-approved analytical test
methods be used, where they exist, when applying for an NPDES permit
and when performing sampling and analysis pursuant to monitoring
requirements in an NPDES permit. EPA does not expect this final rule to
have any impact on local governments.
Furthermore, the revised regulations would not alter the basic
state-federal scheme established in the CWA, under which EPA authorizes
states to carry out the NPDES permitting program. EPA expects the
revised regulations to have little effect on the relationship between,
or the distribution of power and responsibilities among, the Federal
and State governments.
F. Executive Order 13175: Consultation and Coordination With Indian
Tribal Governments
This final rule does not have tribal implications, as specified in
Executive Order 13175, ``Consultation and Coordination with Indian
Tribal Governments'' (65 FR 67249, November 9, 2000). It will not have
substantial direct effects on tribal governments, on the relationship
between the Federal Government and Indian tribes, or on the
distribution of power and responsibilities between the Federal
Government and Indian tribes, as specified in Executive Order 13175.
The final rule requires that sufficiently sensitive EPA-approved
analytical test methods must be used, where they exist, when applying
for an NPDES permit and when performing sampling and analysis pursuant
to monitoring requirements in an NPDES permit. Nothing in this final
rule would prevent an Indian tribe from exercising its own organic
authority to deal with such matters.
G. Executive Order 13045: Protection of Children From Environmental
Health and Safety Risks
The final rule is not subject to Executive Order 13045,
``Protection of Children from Environmental Health Risks and Safety
Risks'' (62 FR 19885, April 23, 1997), because it is not economically
significant and the Agency does not believe that the environmental
health and safety risks addressed by this action present a
disproportionate risk to children.
H. Executive Order 13211: Actions Concerning Regulations That
Significantly Affect Energy Supply, Distribution, or Use
This rulemaking is not subject to Executive Order 13211, ``Actions
Concerning Regulations That Significantly Affect Energy Supply,
Distribution, or Use'' (66 FR 28355, May 22, 2001), because it is not
likely to have a significant adverse effect on the supply,
distribution, or use of energy.
I. National Technology Transfer and Advancement Act
Section 12(d) of the National Technology Transfer and Advancement
Act (NTTAA) of 1995 (Pub. L. 104-113, section 12(d), 15 U.S.C. 272
note) directs EPA to use voluntary consensus standards in its
regulatory activities unless to do so would be inconsistent with
applicable law or otherwise impractical. Voluntary consensus standards
are technical standards (e.g., materials specifications, test methods,
sampling procedures, and business practices) that are developed or
adopted by voluntary consensus standard bodies. The NTTAA directs EPA
to provide explanations to Congress, through OMB, when the Agency
decides not to use available and applicable voluntary consensus
standards. This final rulemaking does not change agency policy or
requirements with respect to the use of voluntary consensus standards
for the analysis of pollutants by NPDES permit applicants or
permittees.
J. Executive Order 12898 (Federal Actions To Address Environmental
Justice in Minority Populations and Low-Income Populations)
Executive Order 12898 (59 FR 7629, February 16, 1994) establishes
federal executive policy on environmental justice. Its main provision
directs federal agencies, to the greatest extent practicable and
permitted by law, to make environmental justice part of their mission
by identifying and addressing, as appropriate, disproportionately high
and adverse human health or environmental effects of their programs,
policies, and activities on minority populations and low-income
populations in the United States.
EPA has determined that this final rule will not have
disproportionately high and adverse human health or environmental
effects on minority or low-income populations because it does not
affect the level of protection provided to human health or the
environment. As explained above, the Agency does not have reason to
believe that the rule addresses environmental health and safety risks
that present a disproportionate risk to minority populations and low-
income populations.
K. Congressional Review Act
The Congressional Review Act, 5 U.S.C. 801 et seq., as added by the
Small Business Regulatory Enforcement Fairness Act of 1996, generally
provides that before a rule may take effect, the agency promulgating
the rule must submit a rule report, which includes a copy of the rule,
to each House of the Congress and to the Comptroller General of the
United States. EPA will submit a report containing this rule and other
required information to the U.S. Senate, the U.S. House of
Representatives, and the Comptroller General of the United States prior
to publication of the rule in the Federal Register. A major rule cannot
take effect until 60 days after it is published in the Federal
Register. This action is not a ``major rule'' as defined by 5 U.S.C.
804(2). This rule will be effective September 18, 2014.
List of Subjects
40 CFR Part 122
Administrative practice and procedure, Confidential business
information, Environmental protection, Hazardous substances, Reporting
and recordkeeping requirements, Water pollution control.
40 CFR Part 136
Environmental protection, Incorporation by reference, Reporting and
recordkeeping requirements, Water pollution control.
Dated: August 6, 2014.
Gina McCarthy,
Administrator.
For the reasons set out in the preamble, title 40, chapter I, of
the Code of Federal Regulations is amended as follows:
PART 122--EPA ADMINISTERED PERMIT PROGRAMS: THE NATIONAL POLLUTANT
DISCHARGE ELIMINATION SYSTEM
0
1. The authority citation for part 122 continues to read as follows:
[[Page 49013]]
Authority: The Clean Water Act, 33 U.S.C. 1251 et seq.
0
2. Section 122.21, is amended by adding a new paragraph (e)(3), to read
as follows:
Sec. 122.21 Application for a permit (applicable to State programs,
see Sec. 123.25).
* * * * *
(e) * * *
(3) Except as specified in 122.21(e)(3)(ii), a permit application
shall not be considered complete unless all required quantitative data
are collected in accordance with sufficiently sensitive analytical
methods approved under 40 CFR part 136 or required under 40 CFR chapter
I, subchapter N or O.
(i) For the purposes of this requirement, a method approved under
40 CFR part 136 or required under 40 CFR chapter I, subchapter N or O
is ``sufficiently sensitive'' when:
(A) The method minimum level (ML) is at or below the level of the
applicable water quality criterion for the measured pollutant or
pollutant parameter; or
(B) The method ML is above the applicable water quality criterion,
but the amount of the pollutant or pollutant parameter in a facility's
discharge is high enough that the method detects and quantifies the
level of the pollutant or pollutant parameter in the discharge; or
(C) The method has the lowest ML of the analytical methods approved
under 40 CFR part 136 or required under 40 CFR chapter I, subchapter N
or O for the measured pollutant or pollutant parameter.
Note to paragraph (e)(3)(i)(C): Consistent with 40 CFR part 136,
applicants have the option of providing matrix or sample specific
minimum levels rather than the published levels. Further, where an
applicant can demonstrate that, despite a good faith effort to use a
method that would otherwise meet the definition of ``sufficiently
sensitive'', the analytical results are not consistent with the QA/
QC specifications for that method, then the Director may determine
that the method is not performing adequately and the applicant
should select a different method from the remaining EPA-approved
methods that is sufficiently sensitive consistent with 40 CFR
122.21(e)(3)(i). Where no other EPA-approved methods exist, the
applicant should select a method consistent with 40 CFR
122.21(e)(3)(ii).
(ii) When there is no analytical method that has been approved
under 40 CFR part 136, required under 40 CFR chapter I, subchapter N or
O, and is not otherwise required by the Director, the applicant may use
any suitable method but shall provide a description of the method. When
selecting a suitable method, other factors such as a method's
precision, accuracy, or resolution, may be considered when assessing
the performance of the method.
* * * * *
0
3. Section 122.44 is amended by revising paragraph (i) (1) (iv) to read
as follows:
Sec. 122.44 Establishing limitations, standards, and other permit
conditions (applicable to State NPDES programs, see Sec. 123.25).
* * * * *
(i) * * *
(1) * * *
(iv) According to sufficiently sensitive test procedures (i.e.,
methods) approved under 40 CFR part 136 for the analysis of pollutants
or pollutant parameters or required under 40 CFR chapter I, subchapter
N or O.
(A) For the purposes of this paragraph, a method is ``sufficiently
sensitive'' when:
(1) The method minimum level (ML) is at or below the level of the
effluent limit established in the permit for the measured pollutant or
pollutant parameter; or
(2) The method has the lowest ML of the analytical methods approved
under 40 CFR part 136 or required under 40 CFR chapter I, subchapter N
or O for the measured pollutant or pollutant parameter.
Note to paragraph (i)(1)(iv)(A)(2):
Consistent with 40 CFR part 136, applicants or permittees have
the option of providing matrix or sample specific minimum levels
rather than the published levels. Further, where an applicant or
permittee can demonstrate that, despite a good faith effort to use a
method that would otherwise meet the definition of ``sufficiently
sensitive'', the analytical results are not consistent with the QA/
QC specifications for that method, then the Director may determine
that the method is not performing adequately and the Director should
select a different method from the remaining EPA-approved methods
that is sufficiently sensitive consistent with 40 CFR
122.44(i)(1)(iv)(A). Where no other EPA-approved methods exist, the
Director should select a method consistent with 40 CFR
122.44(i)(1)(iv)(B).
(B) In the case of pollutants or pollutant parameters for which
there are no approved methods under 40 CFR part 136 or methods are not
otherwise required under 40 CFR chapter I, subchapter N or O,
monitoring shall be conducted according to a test procedure specified
in the permit for such pollutants or pollutant parameters.
* * * * *
PART 136--GUIDELINES ESTABLISHING TEST PROCEDURES FOR THE ANALYSIS
OF POLLUTANTS
0
4. The authority citation for part 136 continues to read as follows:
Authority: Secs. 301, 304(h), 307, and 501(a) Pub. L. 95-217,
91 Stat. 1566, et seq. (33 U.S.C. 1251 et seq.) (The Federal Water
Pollution Control Act Amendments of 1972 as amended by the Clean
Water Act of 1977.)
0
5. Section 136.1 is amended by adding a new paragraph (c) to read as
follows:
Sec. 136.1 Applicability.
* * * * *
(c) For the purposes of the NPDES program, when more than one test
procedure is approved under this part for the analysis of a pollutant
or pollutant parameter, the test procedure must be sufficiently
sensitive as defined at 40 CFR 122.21(e)(3) and 122.44(i)(1)(iv).
[FR Doc. 2014-19265 Filed 8-18-14; 8:45 am]
BILLING CODE 6560-50-P